WO2013016946A1 - Wirelessly rechargeable battery module and charging structure thereof - Google Patents

Abstract

Disclosed are a wirelessly rechargeable battery module (10) and a charging structure thereof. The rechargeable battery module (10) includes a battery (14) and a charging unit (11). The charging unit (11) includes a feed line (12) and a charging circuit (13). An electrical connection is formed between the charging unit (11) and the battery (14). The charging structure includes the battery module (10) and a wireless charger (20). The wireless charger (20) includes a charging panel (22) which is provided with another feed line (23) corresponding to the feed line (12) of the charging unit (11). With the battery module (10) and the charging structure thereof, the electromagnetic induction is generated by the feed line (12) of the charging unit (11) and the feed line (23) of the wireless charger (20), so that the power stored in the wireless charger (20) is outputted to the battery module (10) in wireless means, and the battery (14) is charged by the charging circuit (13).

Description

 Wirelessly chargeable battery module and charging structure thereof

 The invention relates to a battery module capable of wireless charging and a charging structure thereof, in particular to a battery module capable of generating electromagnetic induction with a wireless charger, so that the power stored by the wireless charger can be wirelessly connected to the battery module. The battery is charged. Background technique

 Electronic products such as mobile phones, digital cameras, PDA devices, notebook computers, and other portable electronic products, etc., when the power supply is exhausted and needs to be connected to maintain operation and replenish power, the user can pass the electronic products through the transmission line and the plug. The extension is plugged into the socket device to connect the electronic product with the mains to obtain electric energy; the existing electrical appliances (such as vacuum cleaners) must also be inserted into the socket device via the transmission line and the plug to make the electrical appliance and the mains connected. To maintain operation and replenish energy.

 However, the above-mentioned existing electronic products, electrical appliances, and the like can only be charged by means of a wired power transmission method such as a transmission line or a plug, and it is impossible to charge an electronic product, an electrical appliance, or the like by using a wireless charging method, which inevitably causes use and carrying. Inconvenience.

 Therefore, there is a so-called wireless charger. When a mobile phone, a digital camera, a PDA device, or the like is placed on the surface of the wireless charger, the power stored by the wireless charger can be wirelessly connected to the mobile phone, the digital camera, the PDA device, etc. Charging; however, there is no technology that wireless chargers can directly charge the battery wirelessly.

 Therefore, the creator is constantly researching the concept of improvement and innovation based on products, and is actively researching and developing thinking based on the practical experience of the product development for many years. Through numerous practical design experiments, the invention has been produced. Summary of the invention

 The main technical problem to be solved by the present invention is to overcome the above-mentioned drawbacks of the prior art, and to provide a wirelessly rechargeable battery module and a charging structure thereof, which can be wirelessly charged and can wirelessly charge the battery of the battery module. Charging.

The battery module of the present invention that can be wirelessly charged is: A battery module capable of wirelessly charging, comprising: a battery, a charging unit, wherein the charging unit comprises a return line and a charging circuit, and the charging unit is electrically connected with the battery; so that a wireless charger The electromagnetic induction can be generated with the return line and the power is wirelessly output to the battery module, and the battery is charged by the charging circuit.

 In the foregoing wirelessly chargeable battery module, a surface portion is further provided to protect the charging unit and the battery.

 The charging structure of the battery module of the present invention is:

 A charging structure of a battery module, comprising: a battery module, comprising a battery and a charging unit, wherein the charging unit comprises a return line and a charging circuit, and the charging unit is electrically connected to the battery a wireless charger includes a charging board, and the charging board is provided with another return line corresponding to the return line of the charging unit; so that the charging unit returns to the line, the wireless charger returns the line to generate electromagnetic induction, and the wireless charger The stored power is wirelessly output to the battery module, and the battery is charged by the charging circuit.

 In the foregoing charging structure of the battery module, the wireless charger is provided with a power plug end.

 The charging structure of the battery module of the former fan, wherein the power plug end is inserted into a solar panel.

 The charging structure of the battery module of the prior art, wherein the wireless charger includes a rechargeable battery for charging and storing electricity, and the rechargeable battery is electrically connected with the charging board.

 In the foregoing charging structure of the battery module, the wireless charger is provided with a side portion.

 The charging structure for wirelessly charging the battery module of the present invention further includes a wireless charger in addition to the battery module, the wireless charger includes a charging board, and the charging board is provided with a corresponding charging line of the charging unit. Another return line; in order to make the charging unit return line and the wireless charger return line can generate electromagnetic induction, so that the wireless charger can wirelessly output the stored electric power to the battery module, and then the battery is charged by the charging circuit. Charge it.

 The beneficial effects of the present invention are that it can be wirelessly charged and the battery of the battery module can be wirelessly charged. DRAWINGS

 The invention will now be further described with reference to the drawings and embodiments.

 1 is a perspective exploded view of a battery module of the present invention.

 2 is a perspective perspective view of a battery module of the present invention.

3 is a perspective view of a use embodiment of the battery module of the present invention placed on a wireless charger for wireless charging. Schematic.

 Figure 4 is a cross-sectional view showing an embodiment of use of the battery module of the present invention placed in a wireless charger for wireless charging.

 Figure 5 is a perspective, perspective view of an embodiment of the use of the wireless charger plug-in solar panel of the present invention. Fig. 6 is a perspective perspective view showing an embodiment of the use of the wireless charger of the present invention in which a solar panel is assembled and the battery module is wirelessly charged.

 7 is a perspective exploded view of a charging pad and a rechargeable battery of the wireless charger of the present invention.

 Figure 8 is a perspective perspective view of the wireless charger of the present invention.

 Fig. 9 is a perspective view showing the use embodiment of the battery module of the present invention placed on the wireless charger for wireless charging.

 Description of the reference signs:

 10 battery module; 11 charging unit; 12 return line; 13 charging circuit; 14 battery; 15 table; 20 wireless charger; 21 power plug; 22 charging board; 23 return line; 24 power storage circuit; Battery; 26 side section; 30 transmission line; 40 solar panels. detailed description

 Referring to FIG. 1 , FIG. 2 and FIG. 3 , the wirelessly rechargeable battery module 10 includes a charging unit 11 and a battery 14 , and the charging structure of the battery module 10 includes the battery module 10 . The wireless charger 20 includes a wireless charger 20; in use, the battery module 10 is placed on the upper surface of the wireless charger 20, so that the battery module 10 can generate electromagnetic induction with the wireless charger 20, so that the wireless charger 20 The stored power can wirelessly charge the battery 14 of the battery module 10.

 Referring to FIG. 1 and FIG. 2, the charging unit 11 of the battery module 10 of the present invention can be a circuit board integrating components, for wirelessly receiving, controlling, and charging the received power into the battery 14; The charging unit 11 is provided with a loop-like return line 12 for receiving power. The charging unit 11 is further provided with a charging circuit port for stabilizing the voltage signal to perform appropriate charging operation on the battery 14, such as the battery 14. When the power loss occurs, the charging operation is started, but when the battery 14 is electrically saturated, it is controlled by the charging circuit 13 to prevent the battery 14 from being overcharged, thereby damaging the battery 14.

 The battery 14 is a battery that can be charged and stored, and is electrically connected to the charging unit 11.

 The battery module 10 can be provided with a surface portion 15 for covering the charging unit 11 and the battery 14, or the surface portion 15 can have an opening for freely removing and loading the battery 14 for replacement.

Referring to FIG. 3, FIG. 4, and FIG. 5, the wireless charger 20 of the present invention is provided with a power plug. Mating end 21, can be used to receive utility power from the input transmission line 30 and the power accumulator to be a wireless charger ^20; wireless charger 20 includes a charging plate 22, the plate 22 is provided with a charging unit 11 and the charging The other return line 23 corresponding to the return line 12, the charging board 22 includes a power storage circuit 24 for stabilizing the voltage signal to perform an appropriate charging operation on the wireless charger 20, such as when the wireless charger 20 experiences power loss. That is, the charging operation is started, but when the wireless charger 20 is saturated, the power storage circuit 24 is controlled to prevent the wireless charger 20 from being overcharged.

 Referring to FIG. 3 and FIG. 4, the battery module 10 of the present invention can be placed in a wireless charger when in use.

20, so that the return line 12 of the charging unit 11 and the return line 23 of the wireless charger 20 can generate electromagnetic induction, so that the wireless charger 20 can wirelessly output the stored power to the battery module 10, and further The battery 14 is charged by the charging circuit 13.

 Referring to FIG. 5 and FIG. 6, the power plug terminal 21 of the wireless charger 20 of the present invention can further be configured to assemble a solar panel 40 to collect light energy by using the solar panel 40 in a place with a light source, and borrow The power storage circuit 24 converts the light energy into electrical energy and stores it; accordingly, the wireless charger 20 can also wirelessly charge the battery module 10 by means of light energy storage.

 Referring to FIG. 7 and FIG. 8 , the wireless charger 20 of the present invention may include a rechargeable battery 25 for charging and storing electricity, and the rechargeable battery 25 is electrically connected to the charging board 22; accordingly, the wireless charging is performed. The device 20 can store the commercial power input from the outside to the rechargeable battery 25.

 Referring to FIG. 9, the wireless charger 20 of the present invention may further be provided with a side portion 26 for the side of the battery module 10 to be placed on the surface of the wireless charger 20 by the side portion 26.

 In summary, the battery module and the wireless charger of the present invention can generate electromagnetic induction through the corresponding return line, so that the power stored in the wireless charger can wirelessly charge the battery of the battery module, and has a unique Efficacy, has met the patent requirements.

 The above is only the preferred embodiment of the present invention, and is not intended to limit the present invention in any way. Any simple modifications, equivalent changes and modifications made to the above embodiments in accordance with the technical spirit of the present invention are still It is within the scope of the technical solution of the present invention.

Claims

Rights request  A battery module that can be wirelessly charged, comprising: a battery, a charging unit, wherein the charging unit comprises a return line and a charging circuit, and the charging unit is electrically connected to the battery.  2. The wirelessly chargeable battery module according to claim 1, further comprising a surface portion for protecting the charging unit and the battery.  3. A charging structure for a battery module, characterized by comprising:  A battery module includes a battery and a charging unit, wherein the charging unit includes a return line and a charging circuit, and the charging unit is electrically connected to the battery;  A wireless charger includes a charging pad, and the charging pad is provided with another return line corresponding to the return line of the charging unit.  4. The charging structure of a battery module according to claim 3, wherein the wireless charger is provided with a power plug terminal.  The charging structure of the battery module according to claim 4, wherein the power plug end is configured to be connected to a solar panel.  The charging structure of the battery module according to claim 3, wherein the wireless charger comprises a rechargeable battery for charging and storing, and the rechargeable battery is electrically connected to the charging board.  7. The charging structure of a battery module according to claim 3, wherein the wireless charger is provided with a side portion.